CN104298288B - Airborne ADS-B electric power management circuit - Google Patents

Abstract

Airborne ADS-B electric power management circuit comprises power input stage, and described power input stage is made up of power supply comparison module, charging module, commutation diode and switching device; Also comprise power supply and divide gradation, described power supply divides gradation to comprise enable control circuit and a plurality of DC converting circuit, the input power of described DC converting circuit is primary power source output terminal, and the Enable Pin of DC converting circuit is connected with the logic output terminal of enable control circuit; Also comprise state machine, described state machine is connected with enable control circuit and charging module signal.The invention also discloses a kind of airborne ADS-B method for managing power supply.The present invention charges to internal cell and external power supply automatic decision, extend system power supply power-on time, selectivity carried out to the unlatching of system power supply enable, in the process of system electrification, forbid the supply of transmitter power pipe power supply, the instability factor in the initialization procedure of system power-up moment that avoids causes power tube to damage.

Description

Airborne ADS-B electric power management circuit

Technical field

The invention belongs to electronic circuit field, relate to the power management techniques for airborne equipment, be specifically related to a kind of airborne ADS-B electric power management circuit and method.

Background technology

ADS-B (AutomaticDependentSurveillance – Broadcast, broadcast by automatic dependent surveillance )system is one and integrates communication and the infosystem monitored, is made up of information source, information transfer channel and information processing and display three part.

In ADS-B system, radio frequency sending set is absolutely necessary a funtion part.By the impact of legacy equipment working method, in existing ADS-B equipment, all adopt system power-up namely to open all operating voltage, comprise the final stage power amplifier voltage be loaded into above radio frequency power tube.But radio frequency power tube is device important and enervated in system, its design concept great majority can not provide long continuous wave output services, are only suitable for the work of the pulse discontinuity of the little dutycycle of short time.In some imperfections design proposals, there will be and power up moment, fail to enter the duty of expection owing to there being member control circuit, cause entering unpredictable initial phase, and this process often reaches several milliseconds, even second level.In so long uncertain course, various combination condition may cause transmitter to enter nonpermissive emission state, the links power supply of adding now radio frequency link is all normally provide, therefore launching opportunity is in unexpected emission state, and the time of this process overlength, often cause last stage of transmitter power tube to transship, cause last stage of transmitter power tube to burn.

Another one aspect, in traditional airborne equipment, generally can not consider the low-power consumption problem of system, and often equipment one is started shooting and all started in running order by all power supply links, this when direct provide power supply by aircraft very common.And be also like this in the equipment of very most of use battery, also untapped funtion part will certainly be caused like this to consume electric energy in advance, under use battery link, reduce the service time of battery, in vain consume the energy.

Summary of the invention

Easily causing for overcoming existing power supply management circuit the technological deficiency that in airborne ADS-B system, the infringement of radio-frequency transmissions pipe and power consumption increase, the invention discloses a kind of airborne ADS-B electric power management circuit.

Airborne ADS-B electric power management circuit of the present invention, comprise DC supply input and battery, it is characterized in that, also comprise power input stage, described power input stage is made up of power supply comparison module, charging module, commutation diode and switching device;

Positive pole and the negative pole of described commutation diode are connected DC supply input and switching device one end respectively, and the described switching device other end connects battery;

The control end of described switching device is connected with the drive output of power supply comparison module, and two of described power supply comparison module are compared input end and connect DC supply input and battery respectively; The described logic output terminal of power supply comparison module is connected with the Enable Pin of charging module;

The charging output terminal of described charging module is connected with battery, and the common port of described switching device and commutation diode is as the primary power source output terminal of power input stage;

Also comprise power supply and divide gradation, described power supply divides gradation to comprise enable control circuit and a plurality of DC converting circuit, the input power of described DC converting circuit is primary power source output terminal, and the Enable Pin of DC converting circuit is connected with the logic output terminal of enable control circuit;

Also comprise state machine, described state machine is connected with enable control circuit and charging module signal.

Preferably, rectifying and wave-filtering level is connected with between described DC supply input and commutation diode; Described rectifying and wave-filtering level comprises LC wave filter, and the inductance in LC wave filter is connected between commutation diode and DC supply input, between the common port that electric capacity is connected to inductance and commutation diode and ground.

Further, described rectifying and wave-filtering level also comprises and is connected to electric capacity of voltage regulation between DC supply input and ground and Transient Suppression Diode pair, and described Transient Suppression Diode is to comprising two series connection and the interconnected Transient Suppression Diode of negative pole.

Concrete, described power supply comparison module is LTC4412, and charging module is BQ24103A.

Concrete, described DC converting circuit is be the direct current transducer of governor circuit by LTC3115.

Preferably, comprise LDO, described LDO input end is connected with primary power source output terminal, and LDO output terminal is that enable control circuit is powered.

Concrete, described enable control circuit is TINY13.

Preferably, the filter capacitor be connected between commutation diode backward end and ground is also comprised.

The invention also discloses a kind of airborne ADS-B method for managing power supply, comprise the steps:

S1. state machine acquisition preparation transmits, and obtains and successfully then starts emission power;

S2. transmitter work, returns end signal to state machine after hours;

S3. state machine closes emission power after receiving end signal, waits for until acquisition preparation transmits again.

Adopt airborne ADS-B electric power management circuit of the present invention, internal cell and external power supply automatic decision are charged, extend system power supply power-on time, selectivity carried out to the unlatching of system power supply enable, in the process of system electrification, forbid the supply of transmitter power pipe power supply, the instability factor in the initialization procedure of system power-up moment that avoids causes power tube to damage.And after system enters steady-working state, after system obtains correct information, just start transmitter power pipe power supply, accomplish the mode of supplying as required, avoiding system startup causes power tube along bad instantaneously, simultaneously under use battery condition, extend the working time of system further, improve the efficiency of electric power system.

Accompanying drawing explanation

Fig. 1 is a kind of embodiment structural representation of airborne ADS-B electric power management circuit of the present invention;

Fig. 2 is the concrete implementing procedure schematic diagram of one of airborne ADS-B method for managing power supply of the present invention;

In figure, Reference numeral name is called: VIN-DC supply input VM-primary power source output terminal MN-power tube D-commutation diode BAT-battery.

Embodiment

Below in conjunction with accompanying drawing, the specific embodiment of the present invention is described in further detail.

Airborne ADS-B electric power management circuit of the present invention, comprise DC supply input and battery, also comprise power input stage, described power input stage is made up of power supply comparison module, charging module, commutation diode and switching device;

Positive pole and the negative pole of described commutation diode are connected DC supply input and switching device one end respectively, and the described switching device other end connects battery;

The control end of described switching device is connected with the drive output of power supply comparison module, and two of described power supply comparison module are compared input end and connect DC supply input and battery respectively; The described logic output terminal of power supply comparison module is connected with the Enable Pin of charging module;

The charging output terminal of described charging module is connected with battery, and the common port of described switching device and commutation diode is as the primary power source output terminal of power input stage;

Also comprise power supply and divide gradation, described power supply divides gradation to comprise enable control circuit and a plurality of DC converting circuit, the input power of described DC converting circuit is primary power source output terminal, and the Enable Pin of DC converting circuit is connected with the logic output terminal of enable control circuit;

Also comprise state machine, described state machine is connected with enable control circuit and charging module signal.

Power supply comparison module is for comparing the DC voltage value of DC supply input and battery, DC supply input have power supply to input and DC voltage value higher than battery time, power supply comparison module controls power tube MN and closes, now primary power source output terminal VM is directly powered by DC supply input VIN, and power supply comparison module exports charging enable signal to charging module simultaneously.

Under said external power supply is primary power source output terminal VM electric power thus supplied; power tube is closed and battery and VM is held isolate; charging module is in enabled state; start as battery charging; charging module can select the charging circuit built for core with BQ2403 chip, and be single-unit or multisection lithium battery charging, BQ2403 also provides perfect battery protection measures; prevent battery from occurring overcharging, the unsafe problems such as overheated occurs.Meanwhile, BQ2403 also provides a charged state to export to machine system, and in order to indicate internal cell whether to be in charged state, power supply comparison module can select LTC4412, exports charging enable signal while output power pipe control signal.

When the voltage of DC supply input is lower than battery DC voltage value, power supply comparison module controls power tube and opens, and is powered to primary power source output terminal VM by battery, and now power supply comparison module output signal control charging module is not enable.

Filter capacitor can be connected with the voltage of stable primary power source output terminal between primary power source output terminal and ground, each DC converting circuit is using primary power source output terminal as power supply, different DC voltage is exported according to the demand of internal unit, DC converting circuit preferably uses for all comparatively wide in range BUCK-BOOST framework of input and output voltage, such as, be the direct current transducer of governor circuit with LTC3115.

The Enable Pin of DC converting circuit is connected with enable control circuit, enable control circuit judges and output enable signal by accepting external signal, the enable signal of each DC converting circuit is independent, and enable control circuit comprises programing function, such as, can select TINY13.

The power supply of enable control circuit can be powered by the step-down of primary power source output terminal, now described airborne ADS-B electric power management circuit also comprises LDO, the power input of described LDO is connected with primary power source output terminal, LDO output terminal is connected with the power input of enable control circuit, by the lowering and stabilizing blood pressure process of LDO, for enable control circuit provides galvanic current source, such as, output voltage for TINY13, LDO is 3.3V.

Enable control circuit is connected with state machine and carries out exchanges data with it; enable control circuit receives preparation from state machine and transmits; when system electrification starts; each group of control signal output low level of enable control circuit; each DC converting circuit is in idle state, and therefore system cannot obtain each group of voltage, and namely power tube part can not get normal working power; even if thus the emission state reaching non-design expectation occurs, also can be unlikely to damage by available protecting power tube.After state machine input prepares firing order, by the control of enable control circuit chip, the DC converting circuit started respectively needed for each exports required voltage.

Enable control circuit by receive the order of external system control power supply startup this whether, also externally provide State-output to feed back simultaneously, by T13 output status signal to state machine, show the various states of power unit.

Fig. 2 illustrates and comprises the steps: a kind of embodiment that state machine controls enable control circuit

S1. state machine acquisition preparation transmits, and obtains and successfully then starts emission power;

Preparation transmits and delivers to enable control circuit by state machine, and enable control circuit starts each DC converting circuit thus starts emission power.

S2. transmitter work, returns end signal to state machine after hours;

S3. state machine closes emission power after receiving end signal, waits for until acquisition preparation transmits again.After state machine receives end signal, close each DC converting circuit by enable control circuit.

State machine manages the various piece of the airborne ADS-B power supply described in the application, and adjusts the duty of each several part according to State-output.State machine can be the computer, single-chip microcomputer, digital signal processor etc. of loading routine.

Power unit is powered derive from internal cell BAT or external power source VIN for being distinguished current system, specific implementation is for export a logical signal by power supply comparison module, such as when external power terminal be connected with >=power supply of internal battery voltage time, output logic 1, shows that current system power switching is to external power source; Otherwise then by internal battery powers.This logical signal outputs to live part and enable control section simultaneously.

Live part is controlled to form by charging module and state machine.When the logic of aforementioned power unit is external power source, charging module part is enable, can charge to internal cell, and export charged state (fault, charge, be full of), charging module controls by system state simultaneously, can be initiatively whether enable by system, its authority is higher than the power supply status logic in above-mentioned 1;

State machine is also connected with airborne airborne ADS-B systems radiate teleseme and reads the status signal of this part, and what state machine obtained that airborne ADS-B system provides transmits, and receives and resolves this signal, having judged whether send action.When the mission need obtained is true, and when not having other not meet the condition of launching, (such as system mistake, or protected circuit judges goes out up-set condition, such as overtension, too low etc.), then state switches to transmitter trigger, exports each group of corresponding power enable signal, allow transmitter obtain correct various working powers to enable control circuit;

The enable control signal that enable control circuit active receive state machine exports, and whether normal detect after startup power supply immediately, immediate feedback is to state machine information, and whether such as circuit is in under-voltage, overvoltage, overcurrent, over-temperature condition etc., makes state machine can switching state process in time.

Rectifying and wave-filtering level can be connected between described DC supply input and commutation diode; Described rectifying and wave-filtering level comprises LC wave filter, inductance in LC wave filter is connected between commutation diode and DC supply input, between the common port that electric capacity is connected to inductance and commutation diode and ground, LC wave filter is for eliminating the fluctuation ripple of extraneous direct supply.

Electric capacity of voltage regulation and Transient Suppression Diode pair can also be connected between DC supply input and ground, described Transient Suppression Diode to comprising two series connection and the interconnected Transient Suppression Diode of negative pole, to suppress the peak voltage at powered on moment.

The method that in the present invention, the disclosed embodiments describe or the software module that the step of algorithm can directly use hardware, processor to perform, or the combination of the two is implemented.Software module can be placed in the storage medium of other form any known in random access memory (RAM), internal memory, ROM (read-only memory) (ROM), electrically programmable ROM, electrically erasable ROM, register, hard disk, moveable magnetic disc, CD-ROM or technical field.

Previously described is each preferred embodiment of the present invention, preferred implementation in each preferred embodiment is if not obviously contradictory or premised on a certain preferred implementation, each preferred implementation can stack combinations use arbitrarily, design parameter in described embodiment and embodiment is only the invention proof procedure in order to clear statement inventor, and be not used to limit scope of patent protection of the present invention, scope of patent protection of the present invention is still as the criterion with its claims, the equivalent structure change that every utilization instructions of the present invention and accompanying drawing content are done, in like manner all should be included in protection scope of the present invention.

Claims (8)

1. airborne ADS-B electric power management circuit, comprises DC supply input and battery, it is characterized in that, also comprise power input stage, and described power input stage is made up of power supply comparison module, charging module, commutation diode and switching device;

Positive pole and the negative pole of described commutation diode are connected DC supply input and switching device one end respectively, and the described switching device other end connects battery;

The control end of described switching device is connected with the drive output of power supply comparison module, and two of described power supply comparison module are compared input end and connect DC supply input and battery respectively; The described logic output terminal of power supply comparison module is connected with the Enable Pin of charging module;

The charging output terminal of described charging module is connected with battery, and the common port of described switching device and commutation diode is as the primary power source output terminal of power input stage;

Also comprise power supply and divide gradation, described power supply divides gradation to comprise enable control circuit and a plurality of DC converting circuit, the input power of described DC converting circuit is primary power source output terminal, and the Enable Pin of DC converting circuit is connected with the logic output terminal of enable control circuit;

Also comprise state machine, described state machine is connected with enable control circuit and charging module signal.

2. airborne ADS-B electric power management circuit as claimed in claim 1, is characterized in that, be connected with rectifying and wave-filtering level between described DC supply input and commutation diode; Described rectifying and wave-filtering level comprises LC wave filter, and the inductance in LC wave filter is connected between commutation diode and DC supply input, between the common port that electric capacity is connected to inductance and commutation diode and ground.

3. airborne ADS-B electric power management circuit as claimed in claim 2, it is characterized in that, described rectifying and wave-filtering level also comprises and is connected to electric capacity of voltage regulation between DC supply input and ground and Transient Suppression Diode pair, and described Transient Suppression Diode is to comprising two series connection and the interconnected Transient Suppression Diode of negative pole.

4. airborne ADS-B electric power management circuit as claimed in claim 1, is characterized in that, described power supply comparison module is LTC4412, and charging module is BQ24103A.

5. the airborne ADS-B electric power management circuit as described in claim 1 or 4, is characterized in that, described DC converting circuit is be the direct current transducer of governor circuit by LTC3115.

6. airborne ADS-B electric power management circuit as claimed in claim 1, is characterized in that, comprise LDO, and described LDO input end is connected with primary power source output terminal, and LDO output terminal is that enable control circuit is powered.

7. airborne ADS-B electric power management circuit as claimed in claim 1, is characterized in that, described enable control circuit is TINY13.

8. airborne ADS-B electric power management circuit as claimed in claim 1, is characterized in that, also comprise the filter capacitor be connected between commutation diode backward end and ground.